Butt AE, Hamilton DA, Duerkop MS, King DD, Gibbs RB, Sutherland RJ (2002) Spatial memory impairments in rats with 192 IgG-saporin lesions of the nucleus basalis magnocellularis. Neuroscience 2002 Abstracts 378.5. Society for Neuroscience, Orlando, FL.
Summary: In three experiments we test the hypothesis that the nucleus basalis magnocellularis (NBM) is involved in spatial learning and memory. Rats received 192 IgG-saporin lesions of the NBM or sham surgeries prior to testing in the Morris water maze task. In Exp. 1, rats were trained to find a hidden platform, receiving 4 trials per day. In Exp. 2, rats were trained with the hidden platform located in one position on the first 3 trials and in a second position on the 4th trial each day. In Exp. 3, rats were trained in a novel environment with the hidden platform located in a new position every 2 days. In Exp. 1, the NBM lesion group showed longer mean latencies to locate the platform than controls on the first several days of testing. Group differences were greatest on the earlier trials within the 4-trial blocks, with performance in the NBM lesion group recovering to control levels on later trials. In Exp. 2, performance in the NBM lesion group was again impaired, with greater group differences occurring on earlier trials within the 4-trial blocks. In Exp. 3, performance during the first block of trials for the different platform locations did not differ between groups, whereas performance on the 1st trial within the second block of trials was impaired in the NBM lesion group. Analysis of AChE staining and assay of ChAT activity confirm the selectivity of the lesions to the cortically-projecting neurons of the NBM and the sparing of cholinergic medial septal projections to hippocampus. Data suggest that NBM lesions interfere with consolidation of memory for spatial locations.
Related Products: 192-IgG-SAP (Cat. #IT-01)